DE2055207A1 - Method and device for controlling the emission of a corona discharge - Google Patents

Description

t'Method and device for controlling the radiation of a corona discharge " The invention relates to the reproduction of visual information; she is particular Applicable to signal recording and type printing processes in which an input signal is used to create the impression or the application of electrostatic charges the dielectric surface of an electrographic recording medium in patterned Shape to control.

There are several methods of recording information known on electrographic surfaces. Such procedures generally provide creating a pattern of electrostatic charge on the surface of a electrographic recording medium, the electrographic recording medium can in its simplest form from a piece of paper or another, electrically relative conductive base, on one surface of which a thin isolator fin is applied is, for example, made of polyester resin or the like.

The charge pattern can be controlled by an input signal, which controls the selection of those surface parts on the electrographic surface, that are to be charged, and it prevents those surfaces from being charged the electrographic surface that should remain uncharged. The development of the thus created charge pattern by using an either liquid or dry dispersed toner, as they are well known in electrophotography, leads to Creation of a visible record of the information, which is considered to be electrostatic latent dild printed on the surface of the electrographic recording medium, so it is latently recorded. It can have single-tip or Multiple tip or tips are used; the input device takes care of the controlled deflection when using a single tip or for selection certain peaks in a multiple point system. The Sinfachspitzensystem can the use of a pen in the manner of a pen (stylus) + the About the Surface is moved, for example in chart recorders and the like happens, whereas the multi-point system is made up of character printing devices in which a matrix of discharge peaks is used in which the Tips are arranged in a limited rectangular pattern, which is a definite Contains number of parallel rows of peaks that can be selectively reached, so that they form a charge pattern that resembles a letter of the alphabet or one Number or any other desired pattern or character. on the other hand the matrix of discharge tips or styli can form a linear series, such as it is common in bit recording devices.

A disadvantage of the aforementioned systems relates to the + include Need, that the discharge peaks are very close to the surface to be charged have to. In fact, in many cases it is necessary to use the charging tips to be arranged so that they really touch the electrographic surface. This was required in known processes so that the to be sprayed onto the recording surface Charge could be kept within acceptable limits. A contact between the sneaks and the recording surface is disadvantageous for the following reasons. First caused this causes wear of the tips, with which their geometry shifts, which in turn the sharpness and shape of the charged areas created on the surface impaired. Second, the contact of the discharge or charge tips r.it the electrographic surface may be the cause of error signals, namely especially in those cases in which the electrographic recording surface during the creation of the image is moved. Third, there must be devices in which the Y: contact or near-contact charging method is used within very tight tolerances can be made in order to keep accurate and consistent records which can bring input signals.

The present invention teaches a method by which the disadvantages the known method can be overcome. She proposes a method of limitation the influence zones of a primary or discharge peak, whereby the size of a surface area, charged by a tip electrode is limited to 0.25 mm or less even if the tip is several centimeters from the surface, that is charged, removed, or removed. The present invention teaches a method of charging dielectric surfaces in pattern form, wherein the object to be charged is placed on a grounded surface so that its the dielectric surface is spaced from the substrate; the invented procedure is characterized by the fact that a corona discharge tip is used, which is im is essentially surrounded by a flat screen or shield that is related to on the corona tip is adjustable, reducing the zone of influence the size of the corona discharge tip on the dielectric surface Changing the position of the screen varies or can be% * modified. Additionally the size of the area of such a zone of influence can also be changed by that the electrical resistance of the screen or the contact resistance between the corona discharge tip and the screen is changed.

The diameter of the shield seems relatively unimportant to be provided that it is well beyond the diameter of the stylus shaft so that a secondary remission from the screen is weak enough to prevent the deposition undesirable to prevent charge on the recording surface. t'j for the specialist it is obvious that the effect of such a secondary emission is kept small can be, especially where the diameter of the screen is rounded off its edges or by covering such edges with an insulating material on one Minimum can be kept.

It is known that a corona discharge electrode consisting of a single tip, those to prevent hot sparks from being generated when a high voltage is applied is arranged at a sufficient distance from the grounded surface, one electrostatic charge with soft delimitation on an electrographic or electrophotographic sheet produced, which is on the grounded surface between them and laying the discharge tip electrode, the diameter of such charged area slightly larger than the distance between the tip and the grounded pad is when the negative pole of the high voltage is placed on top is while the charged surface area created by a positive corona is, usually slightly smaller than that created by a negative corona is. If the distance between the tip and the grounded surface is increased, the size of the charged area also increases without the edge or Edge drawing of such a charged surface improved would.

According to the present invention, there is another in the charging system Object provided that has a selected electrical conductivity and the in a preferred embodiment is additionally essentially flat; he has in its center a hole or a breakthrough from which the tip the corona electrode emerges. The shaft of the electrode can be this flat object Touch (screen, shield) in some cases, while in other cases not directly physical contact and therefore no direct electrical contact between the electrode and the planar screen will be present. The effectiveness of the limitation the corona created by the introduction of a screen is passed through affects the geometry of the system and the electrical resistance of the screen. Geometric features that affect the effectiveness of the corona delimitation close the distance that the corona tip protrudes through the screen, the shape of the tip and removing the tip from the grounded surface while another Control of the size of the area projected by the corona by changing it the electrical conductivity of the screen as well as by changing the to the Peak applied voltage can be achieved.

To facilitate understanding of the invention, the following is provided referred to the drawing. 1 shows an embodiment in which the screen is mounted adjustable in relation to the discharge tip, Fig. 2 one of the possibilities for modulating (changing) the corona emission and Fig. 3 the way in which the modulation by light using a photoconductor screen can be executed.

It should be emphasized here that these representations are only the To explain the principles of the invention, but not in the sense of a limitation are intended.

In the arrangement according to FIGS. 2 and 3, a high-voltage supply similar to FIG. 1 can be used.

Corresponding parts in different figures are identified by the same Reference numerals denoted.

According to Fig. 1 is au: a grounded, electrically conductive pad 1, an: electrophotographic recording sheet 2 composed of an electrically there is a relatively good conductive carrier, which is in contact with the grounded Base 1 stands and a dielectric surface layer 3 on the side of the Has carrier 2, which faces away from the grounded base 1.

A corona discharge tip 4, which is connected to a high voltage source 11 is connected, the dielectric surface 3 facing and opposite her arranged at a distance. An electrically conductive screen or shield 6 »der is essentially flat on the side facing the dielectric surface 3, is adjustably mounted opposite the corona discharge tip 4.

The screen 6 can be moved up and down in response to an electrical signal be to the surface area on the dielectric surface 3, which when applied the hip tension is charged to the tip 4, changing in size.

Fig. 2 shows another structure of the screen. Here's the electric one conductive screen 6 separated from the corona discharge tip 4 by an insulator 7. A variable resistor 8 is connected between the tip 4 and the screen 6 and thus enables the modulation to be controlled.

Figure 3 shows another possible embodiment because here is that Shield or shield 6 replaced by a photoconductor shield 9, the electrical resistance of which is modulated by changing the intensity of a lamp 10.

The screens in each of Figures 2 and 3 can additionally be related to on the tip 4 can be moved or adjusted to a further modulation of the size to achieve the charged areas on the dielectric surface 3.

The following examples serve to further explain the invention.

Example 1 A corona tip discharger was made with a tip constructed, which have a steel shaft 1.5 mm in diameter at the tapered end Radius of 0.05 mm, with that between the flanks of the tapered section included angle of the shaft was 150. The stem was attached to the negative .output terminal of a high voltage source connected. Below the discharge peak a base or pad was placed that connects to the ground terminal of the voltage source was connected.

Care was taken to keep the distance between the tip and the Document could be changed. So that the projection of when the voltage is applied The corona pattern generated at the tip became a sheet electrophotographic paper is placed under the tip with its underside in Was in contact with the grounded base or pad. 8. after charging it became electrostatic latent image obtained by immersion in a bath of liquid developer developed. The developer was of the type found in electrophotographic document copiers and the like can be used.

When applying the negative voltage of 20 kV to the tip at one Distance of 33 mm between the tip and the base.

plate resulted in a corona discharge pattern with gentle cattle or edges and a diameter of about 57 mm on the electrophotographic sheet Paper that had been placed on the pad. In this case it was the shield not used and the edges of the charge pattern were extremely blurred.

Then a shielding shield, here called shield for short, with the following Properties made. The screen consisted of a bronze disc of 30 mm Diameter and 1.5 mm thickness.

It was essentially flat and had a central bore of 1.52 mm diameter. The electrode tip was pushed through these ears and protruded 4.8 mm beyond the flat boundary surface. The corona pattern created by applying a voltage of 20 kV negative at the tip was created, the distance between of the tip and the backing plate was 33 mm, had a diameter of 54 mm with a sharply defined edge.

The 3-piece screen was then moved a little to the distance around which the tip protruding through the shield to migrate to 3.2 mm. The sharply defined, generated in this way Corona pattern was 23 mm in diameter.

Another series of experiments, with the same discharge tip and running the same screen resulted in the creation of a sharply defined one Corona pattern with 0.79 mm diameter if the distance between the tip and the Backing set to 15.8 mm and the protrusion of the tip over the screen to 0.4 mm became.

Reims 2 to 4 The following series highlights variations in the Limitation of the corona brought about by changing the resistance of the screen became. In each case the applied voltage was 20 kV negative with a tip protrusion 6.2 mm and a distance between screen and base of 38 mm.

in the polyethylene shield brought a sharp-edged Yorona pattern 10 cm in diameter. The volume resistance of the polyethylene was 1.6 × 1013 Ohm cm.

A hard paper label provided a corona pattern with a sharp edge 44 mm in diameter. The volume resistivity of the ITart paper was about 2.5 × 1010 ohm cm.

A bronze screen provided a sharp-edged corona pattern of 31.5 mm diameter.

Examples 5 - 6 A hard paper screen, volume resistance 2.5 x ohms . At 20 kV, cm delivered between a tip protruding 126 mm above the screen and a charge pattern at a distance of 38 mm between the tip and the base 38 mm in diameter with negative voltage at the tip, whereas the charge pattern had a diameter of 32 mm1 when the positive pole was on the tip.

From the foregoing it follows that the delimitation of the zone of the Influence of a corona beam can be controlled by the provision of a screen can and that if all other factors are kept constant, the magnitude such limitation or restriction on the electrical resistivity of the Umbrella, the protrusion of the tip over the umbrella and the distance between depends on the tip and the base.

Although the examples are only intended to illustrate the principle of the invention are provided, they show the control methods that can be used to modulate Corona rays are available; the modulation can be adjusted by moving the shield a in relation to the tip, by changing the volume resistance of the screen or a combination of some or all of these means can be achieved. Additionally can moving the recording element to create a continuous track, where this is desired. Furthermore, the applied voltage can also be considered permanent constant DC voltage or as with a selected or with a modulated Frequency intermittent DC voltage can be used; but it can also be amplitude or frequency modulated. This allows the obtained on the recording element Track can be made discontinuous or decaying (attenuated).

It can thus reproduce an external signal evoked be that such a signal is a mechanical modulation of some or all of the variables disclosed here in accordance with the respective requirements leaves.

As stated above, the electrostatic latent image can pass through Use of dry electrophotographic toner, or preferably one liquid dispersed electrophotographic toner can be developed. A liquid one electrophotographic toner dispersed in an insulating carrier liquid creates an electrophotographic liquid developer that acts as an in a carrier liquid suspended, electroscopic marking material can be designated and determined can; the inert liquid should have a volume resistance of more than 10 nhm.cm and have a dielectric constant less than 3; such an electroscopic one Marking material should be a pigment or a dye or other colored Particles in combination with a resinous or oleoresin or other fixative or Dispersant and, if required, in additional combination with one, the polarity controlling substance such as an alkyd resin or another known per se in the art Have material. Such combined particles form the toner contained in the insulating Inert liquid is suspended. Such dry or liquid dispersed toner materials can be formulated and composed in such a way that they are more positive as required or be attracted by negative electrostatic charge.

Although prominent on electrophotographic papers as the charge the receiving film or was referred to as a recording medium, it should be emphasized, that such a charge receiving film may contain a photo-isolator, and so that the recording medium is an electrophotographic paper or other photoconductive printing element if desired. Even this embodiment is within the scope of the invention.

As a further alternative, the dielectric recording element can also be used without your own conductive base.

In case of doubt, all features disclosed and / or illustrated here are Essential to the invention by themselves or in any meaningful combination. protection is coveted for what regardless of the subjective knowledge of the inventor about the state of the art is objectively protectable.

Claims

Claims (5)

P a t e n t a n s p r ü c h e R Method for charging dielectric Surfaces in patterned form, in which the material to be charged is so earthed Underlay is placed that its dielectric surface has a corona discharge tip opposite to which it is at a distance that is not possible Note that the discharge tip is essentially a flat screen which is adjustable with respect to the tip, creating the zone of influence the tip on the dielectric surface is sized by the position of the Umbrella can be modified. 2. The method according to claim 1, g e k e n n z e i c h n e t d u r c h controlling the size of the area to be charged or charged by changing it the electrical resistance or the specific resistance of the screen. 3. The method of claim 1, g e k e n n z e i c h n e t d u r c h the further control of the size of the areas to be charged by changing the Resistance between the corona discharge tip and the screen. 4. The method of claim 1, d a d u r c h g e k e n nz e i c h n e t that the charge on the screen is controlled by a resistor controller, which is connected between the tip and the screen. 5. The method of claim 1, d a d u r c h g e k e n nz e i c h n e t that the charge on the screen is controlled by the light for modification the charge on the photoconductive medium screen or on the one such a medium containing screen is used. 8. Corona discharge device with a discharge tip and a Carrier for an electrographic workpiece to be charged, which has a distance opposite the discharge tip, and further by means for applying a corona generating Voltage between the tip and the electrographic surface, d a d u r c h e k e n n n z e i c h -n e t that the corona tip is surrounded by a screen, which can be changed in its position or charge to control the shape of the emitted corona is.